CN111524462A

CN111524462A - Curling display device and curling method thereof

Info

Publication number: CN111524462A
Application number: CN202010378620.4A
Authority: CN
Inventors: 闫德松; 廖富; 丁立薇
Original assignee: Kunshan Govisionox Optoelectronics Co Ltd
Current assignee: Kunshan Govisionox Optoelectronics Co Ltd
Priority date: 2020-05-07
Filing date: 2020-05-07
Publication date: 2020-08-11
Anticipated expiration: 2040-05-07
Also published as: CN111524462B

Abstract

The invention provides a curling display device and a curling method thereof, wherein a first driver is arranged at a curling end of a flexible display screen, the first driver is used for realizing the curling and the unfolding of the flexible display screen, the thickness of the flexible display screen along the light-emitting direction is monitored by a distance sensor, and the difference between the running speeds of the curling end and the free end of the flexible display screen is adjusted according to the monitored thickness along the light-emitting direction, so that the thickness of the flexible display screen along the light-emitting direction is kept within a preset range in the curling and unfolding process or in the curling state, the layering between film layer structures of the flexible display screen is avoided, and the service life of the flexible display screen is prolonged.

Description

Curling display device and curling method thereof

Technical Field

The invention relates to the field of curled display screens, in particular to a curled display device and a curling method thereof.

Background

At present, a terminal in a folding form is on the market, while a rolling form is a novel form, and can provide a larger and more convenient storage type display screen body, which is a development direction of a future display terminal and is also paid more and more attention and approval. However, the requirement of the display screen body by the curling is still high, and since the display screen body can generate a certain extrusion force to the screen body when being curled and stored, the extrusion force easily causes the lamination of the screen body, and the service life of the screen body is greatly challenged, a display device which can realize the curling and storage of the display screen body and can not cause the lamination of the screen body due to the excessive curling is urgently needed.

Disclosure of Invention

In view of the above, embodiments of the present invention are directed to a flexible display device and a method for curling the same, in which a first driver is disposed at a curled end of a flexible display, the first driver is used to curl and unfold the flexible display, a distance sensor is used to monitor a thickness of the flexible display along a light-emitting direction, and a difference between operating speeds of the curled end and a free end of the flexible display is adjusted according to the monitored thickness along the light-emitting direction, so as to ensure that the thickness of the flexible display along the light-emitting direction is maintained within a preset range during curling and unfolding or in a curled state, and prevent delamination between film structures of the flexible display, thereby prolonging a service life of the flexible display.

According to an aspect of the present invention, an embodiment of the present invention provides a roll display device, including: the flexible display screen plays a role in displaying; a first driver connected to the curled end of the flexible display screen; and a distance sensor for monitoring the thickness of the flexible display screen along the light emitting direction; wherein the first driver drives the flexible display screen to effect the curling or unrolling of the flexible display screen; and during the rolling or unfolding process, the difference of the running speeds of the rolled end and the free end of the flexible display screen is adjusted according to the thickness of the flexible display screen in the light-emitting direction, which is monitored by the distance sensor.

In one embodiment, the roll-up display assembly further comprises a second actuator, the second actuator being linked to the free end of the flexible display screen.

In an embodiment, when the thickness of the flexible display screen in the light emitting direction monitored by the distance sensor exceeds a preset rated value, the first driver slows down the driving speed, and/or the second driver speeds up the driving speed.

In an embodiment, the first driver comprises a rotary motor driving the flexible display to be rolled around an output shaft of the rotary motor.

In one embodiment, the second driver includes a linear motor, and the linear motor drives the flexible display screen to move linearly.

In one embodiment, the distance sensor is disposed on a non-emitting side of the flexible display screen.

In one embodiment, the roll display device comprises a plurality of distance sensors, and the distance sensors are uniformly arranged on the non-light-emitting side of the flexible display screen.

In one embodiment, the roll display device further comprises an alarm which gives an alarm when the thickness of the flexible display screen in the light emitting direction exceeds a safety value.

According to another aspect of the present invention, an embodiment of the present invention provides a method for curling a display device, the display device including a flexible display screen, the method including: obtaining the thickness of the flexible display screen along the light-emitting direction; and when the thickness of the flexible display screen in the light-emitting direction is larger than a first preset thickness, slowing down the running speed of the curled end of the flexible display screen and/or speeding up the running speed of the free end of the flexible display screen.

In an embodiment, the crimping method further comprises: when the thickness of the flexible display screen along the light-emitting direction is larger than a second preset thickness, stopping the operation of the flexible display screen; wherein the second preset thickness is greater than the first preset thickness.

According to the curling display device and the curling method thereof provided by the embodiment of the invention, the first driver is arranged at the curling end of the flexible display screen, the first driver is used for realizing the curling and the unfolding of the flexible display screen, the thickness of the flexible display screen along the light-emitting direction is monitored by the distance sensor, and the difference between the running speeds of the curling end and the free end of the flexible display screen is adjusted according to the monitored thickness along the light-emitting direction, so that the thickness of the flexible display screen along the light-emitting direction is kept in a preset range in the curling and unfolding process or in the curling state, the layering between film layer structures of the flexible display screen is avoided, and the service life of the flexible display screen is prolonged.

Drawings

Fig. 1 is a schematic structural diagram of a roll display device according to an embodiment of the present disclosure.

Fig. 2 is a flowchart illustrating a method for curling a display device according to an embodiment of the present disclosure.

Fig. 3 is a flowchart illustrating a method for curling a display device according to another embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Further, in the exemplary embodiments, since the same reference numerals denote the same components having the same structure or the same steps of the same method, if an embodiment is exemplarily described, only a structure or a method different from the already described embodiment is described in other exemplary embodiments.

Throughout the specification and claims, when one element is described as being "connected" to another element, the one element may be "directly connected" to the other element or "electrically connected" to the other element through a third element. Furthermore, unless explicitly described to the contrary, the term "comprising" and its corresponding terms should only be taken as including the stated features, but should not be taken as excluding any other features.

Fig. 1 is a schematic structural diagram of a roll display device according to an embodiment of the present disclosure. As shown in fig. 1, the roll display device includes: the flexible display screen comprises a flexible display screen 1 playing a display role, a first driver 2 connected with a curled end of the flexible display screen 1 and a distance sensor 4 used for monitoring the thickness of the flexible display screen 1. The first driver 2 drives the flexible display screen 1 to realize the rolling or the unfolding of the flexible display screen 1, that is, when the flexible display screen 1 is rolled, the first driver 2 provides a driving force for the flexible display screen 1 to move towards the rolling end and roll around the rolling end, and when the flexible display screen 1 is unfolded, the first driver 2 provides a driving force for the flexible display screen 1 to move towards the end far away from the rolling end and unfold. The difference between the operating speeds of the curled end and the free end of the flexible display screen 1 is adjusted according to the thickness of the flexible display screen 1 in the light emitting direction (i.e. the thickness in the direction perpendicular to the film layers of the flexible display screen 1) monitored by the distance sensor 4, for example, when the flexible display screen 1 is curled or unfolded, the operating speed of the curled end and the operating speed of the free end of the flexible display screen 1 can be equal to realize uniform curling or unfolding of the flexible display screen 1, and the traction tensile force applied to the flexible display screen 1 in the curling or unfolding process is small or even zero, so that each film layer and device in the flexible display screen 1 can be protected from being damaged by tensile force; meanwhile, when the thickness of the flexible display screen 1 in the light emitting direction is increased to a certain value, in order to avoid separation between films of the flexible display screen 1 due to excessive curling, the operation speed of the curled end or the operation speed of the free end of the flexible display screen 1 can be adjusted to increase the curling radius of the flexible display screen 1, so that the curling radian of the flexible display screen 1 is reduced, and the extrusion stress of the flexible display screen 1 in the direction perpendicular to the films due to curling is relieved. It should be understood that flexible display screen 1 in the embodiment of the present application can be placed in a housing structure after being curled and stored, that is, the curled end of flexible display screen 1 is located in the housing structure, so that convenient movement after flexible display screen 1 is curled and stored is realized, and the flexible display screen is protected.

According to the curled display device provided by the embodiment of the invention, the first driver is arranged at the curled end of the flexible display screen, the first driver is used for realizing the curling and the unfolding of the flexible display screen, the thickness of the flexible display screen along the light-emitting direction is monitored through the distance sensor, and the difference between the operation speeds of the curled end and the free end of the flexible display screen is adjusted according to the monitored thickness along the light-emitting direction, so that the thickness of the flexible display screen along the light-emitting direction is kept within a preset range in the curling and unfolding process or in the curled state, the layering between film layer structures of the flexible display screen is avoided, and the service life of the flexible display screen is prolonged.

In an embodiment, as shown in fig. 1, the roll up display device may further comprise a second driver 3, the second driver 3 being connected to the free end of the flexible display screen 1. The first driver 2 and the second driver 3 jointly provide a driving force for rolling or unrolling the flexible display screen 1, when the flexible display screen 1 is rolled, the first driver 2 and the second driver 3 jointly provide a driving force for the flexible display screen 1 to move towards the rolled end and roll around the rolled end, and when the flexible display screen 1 is unrolled, the first driver 2 and the second driver 3 jointly provide a driving force for the flexible display screen 1 to move towards the end far away from the rolled end and unroll. And the driving speed of the first driver 2 and/or the driving speed of the second driver 3 are/is adjusted according to the thickness of the flexible display screen 1 along the light-emitting direction monitored by the distance sensor 4, when the thickness of the flexible display screen 1 along the light-emitting direction is increased to a certain value, in order to avoid the separation between the films of the flexible display screen 1 caused by excessive curling, the driving speed of the first driver 2 or the second driver 3 can be adjusted to increase the curling radius of the flexible display screen 1, so that the curling radian of the flexible display screen 1 is reduced, and the extrusion stress of the flexible display screen 1 along the direction perpendicular to the films caused by curling is relieved. It should be understood that the embodiment of the present application may select a driving mode of the free end of the flexible display screen 1 according to requirements of practical application scenarios, for example, a manual driving mode, as long as the selected driving mode can cooperate with the first driver 2 to adjust a difference between operation speeds of the curled end and the free end of the flexible display screen 1, and the embodiment of the present application is not limited to a specific driving mode of the free end of the flexible display screen 1.

In one embodiment, the first driver 2 may slow down the driving speed and/or the second driver 3 may speed up the driving speed when the thickness of the flexible display screen 1 monitored by the distance sensor 4 exceeds a preset rating. In the embodiment of the application, a rated value of the thickness may be preset, and when the distance sensor 4 monitors that the thickness of the flexible display screen 1 in the light emitting direction exceeds the rated value, the curling radius may cause separation between the film layers of the flexible display screen 1, at this time, the driving speed of the first driver 2 may be reduced, or the driving speed of the second driver 3 may be increased, or the driving speed of the first driver 2 may be reduced and the driving speed of the second driver 3 may be increased at the same time, so that the driving speed of the first driver 2 is lower than the driving speed of the second driver 3, and thus the speed of the flexible display screen 1 moving to the curling end is faster than the curling speed, which further causes the curling radius to be enlarged, and reduces the curling degree of the flexible display screen 1. In an embodiment, the adjustment value of the driving speed of the first driver 2 and/or the second driver 3 may be determined according to a thickness change rate of the flexible display screen 1 in the light emitting direction. In a further embodiment, the decreasing value of the driving speed of the first driver 2 and/or the increasing value of the driving speed of the second driver 3 may be proportional to the rate of change of the thickness of the flexible display screen 1 in the light emitting direction. When the thickness of the flexible display screen 1 in the light emitting direction is increased too fast, the difference between the driving speeds of the second driver 3 and the first driver 2 is rapidly increased by slowing down the driving speed of the first driver 2 and/or speeding up the driving speed of the second driver 3, so as to relieve the excessive increase of the thickness of the flexible display screen 1 in the light emitting direction; when the thickness of the flexible display screen 1 in the light emitting direction is increased slowly, the difference between the driving speeds of the second driver 3 and the first driver 2 is smaller by slowing down the driving speed of the first driver 2 and/or accelerating the driving speed of the second driver 3, so that the curling radius of the flexible display screen 1 is reduced as much as possible on the premise that the film layer of the flexible display screen 1 is not separated, and the space occupied by the flexible display screen 1 is reduced.

In an embodiment, the first driver 2 may comprise a rotary motor, which drives the flexible display screen 1 to be rolled around an output shaft of the rotary motor. The flexible display screen 1 can be rotated around the output shaft of the rotary motor by using the rotary motor, so that the flexible display screen can be curled. It should be understood that the rotation motor only provides the rolling driving force for the flexible display screen 1, the flexible display screen 1 does not have to perform rolling motion around the output shaft of the rotation motor, and the flexible display screen 1 may perform rolling motion around another rotating shaft connected to the output shaft of the rotation motor, which is not limited in this embodiment of the present application. It should also be understood that the type of the first driver 2 may be selected according to the requirement of the practical application scenario in the embodiment of the present application, as long as the selected first driver 2 can implement the curling motion of the flexible display screen 1, and the specific type of the first driver 2 is not limited in the embodiment of the present application.

In one embodiment, the second driver 3 may comprise a linear motor, and the linear motor drives the flexible display screen 1 to move linearly. The linear motor is used for providing linear motion for the flexible display screen 1 to be close to or far away from the curling end, so that the flexible display screen 1 is curled and unfolded, and stretching force is not generated on the flexible display screen 1 as far as possible. It should be understood that the type of the second driver 3 in the embodiment of the present application may be selected according to the requirement of the practical application, for example, an air cylinder, etc., as long as the selected second driver 3 can realize the linear motion of the flexible display panel 1, and the embodiment of the present application is not limited to the specific type of the second driver 3.

In an embodiment, the distance sensor 4 may be arranged on the non-light emitting side of the flexible display screen 1. Directly set up distance sensor in the non-luminous side of flexible display screen 1, both can not influence the demonstration of flexible display screen 1, thickness along luminous direction of monitoring flexible display screen 1 that simultaneously can be real-time accurate to avoid flexible display screen 1 to break away from at the rete of curling in-process. It should be understood that the type of the distance sensor 4 may be selected according to the requirement of the actual application scenario, for example, the distance sensor 4 may be an infrared distance sensor, an ultrasonic distance sensor, and the like, as long as the selected distance sensor 4 can monitor the thickness of the flexible display screen 1 along the light emitting direction in real time, and the specific type of the distance sensor 4 is not limited in the embodiment of the present application.

In an embodiment, the roll display device may comprise a plurality of distance sensors 4, which may be uniformly arranged on the non-light emitting side of the flexible display screen 1. For better monitoring the thickness of the film layer at each position of the flexible display screen 1, a plurality of distance sensors 4 can be uniformly arranged on the non-luminous side of the flexible display screen 1, so that the thickness of the flexible display screen 1 at a plurality of positions can be monitored in real time. It should be understood that, in the embodiment of the present application, the number of the distance sensors 4 may be selected according to requirements of an actual application scenario, as long as the number of the selected distance sensors 4 can meet requirements for monitoring the thickness of the flexible display screen 1 along the light emitting direction, and the specific number of the distance sensors 4 is not limited in the embodiment of the present application. It should also be understood that, in the embodiment of the present application, a specific position may also be selected according to requirements of an actual application scenario to set the distance sensor 4, for example, a portion of the flexible display screen 1 that is easy to detach, as long as the set distance sensor 4 can meet requirements for monitoring the thickness of the flexible display screen 1 along the light emitting direction, and the specific setting position of the distance sensor 4 is not limited in the embodiment of the present application.

In an embodiment, as shown in fig. 1, the roll display device may further include a controller 5, and the controller 5 is communicatively connected to the distance sensor 4, the first driver 2, and the second driver 3, and is configured to receive thickness data of the flexible display screen 1 in the light emitting direction, which is monitored by the distance sensor 4, and determine whether to adjust the driving speed of the first driver 2 or the second driver 3, the adjustment amplitude, and the like according to the thickness data. It should be understood that, in the embodiment of the present application, a controller 5 may be separately provided, for example, on a main board of the roll display device, or a functional module of the controller 5 may be integrated in the first driver 2 or the second driver 3 or the distance sensor 4, as long as the function of the controller 5 can be achieved, and the specific existence form of the controller 5 is not limited in the embodiment of the present application.

In an embodiment, as shown in fig. 1, the roll display device may further include an alarm 6, and the alarm 6 gives an alarm when the thickness of the flexible display screen 1 in the light emitting direction exceeds a safety value. When the thickness of the flexible display screen 1 in the light emitting direction exceeds a preset safety value during the rolling process, an alarm (e.g. a warning light or a warning sound) can be given by the alarm 6 to inform the user that the flexible display screen 1 is likely to have a film detachment phenomenon when the rolling operation is continued, and the safety value is greater than the above rated value. In an embodiment, the alarm 6 may be in communication connection with the controller 5, and when the alarm 6 gives an alarm, the controller 5 may simultaneously output a corresponding signal to the controller 5, and the controller 5 may stop the driving of the first driver 2 and the second driver 3 according to the signal to stop the curling operation, so as to avoid the flexible display 1 from being damaged by the continuous curling operation.

Fig. 2 is a flowchart illustrating a method for curling a display device according to an embodiment of the present disclosure. The curling display device may be the curling device of any one of the above embodiments, as shown in fig. 2, and the curling method includes the steps of:

step 210: and acquiring the thickness of the flexible display screen along the light-emitting direction.

This step can be executed by the controller 5 in the above embodiment, and first the thickness of the flexible display screen 1 along the light-emitting direction can be obtained in real time by the distance sensor 4, and then the controller 5 obtains the thickness of the flexible display screen 1 along the light-emitting direction from the distance sensor 4, so as to prevent the thickness of the flexible display screen 1 along the light-emitting direction from being excessively increased (i.e. the problem of detachment of the film layer may occur) due to the pressing force generated during the rolling process of the flexible display screen 1.

Step 220: when the thickness of the flexible display screen along the light-emitting direction is larger than a first preset thickness, the running speed of the curled end of the flexible display screen is reduced and/or the running speed of the free end of the flexible display screen is increased.

By presetting a first preset thickness in the controller 5, where the first preset thickness may be a rated value in the above embodiment, when the thickness of the flexible display screen 1 in the light emitting direction is greater than the first preset thickness, the controller 5 may send an instruction to adjust the driving speed to the first driver 2 and/or the second driver 3 to slow down the operation speed of the curled end of the flexible display screen 1, or speed up the operation speed of the free end of the flexible display screen 1, or simultaneously slow down the operation speed of the curled end of the flexible display screen 1 and speed up the operation speed of the free end of the flexible display screen 1, so as to achieve that the driving speed of the second driver 3 is greater than the driving speed of the first driver 2, thereby achieving that the curling radius of the flexible display screen 1 is increased to relieve the pressing force, and further avoiding continuous increase of the thickness of the flexible display screen 1 in the light emitting direction.

Fig. 3 is a flowchart illustrating a method for curling a display device according to another embodiment of the present application. As shown in fig. 3, the curling method may further include:

step 230: when the thickness of the flexible display screen along the light-emitting direction is larger than a second preset thickness, stopping the operation of the flexible display screen; wherein the second predetermined thickness is greater than the first predetermined thickness.

By presetting a second preset thickness in the controller 5, where the second preset thickness may be a safety value in the above embodiment, when the thickness of the flexible display screen 1 in the light emitting direction is greater than the second preset thickness, the controller 5 may send a command to stop driving to the first driver 2 and the second driver 3 to stop the operation of the flexible display screen, so as to avoid the film layer of the flexible display screen 1 being separated due to the continuous curling operation, and may also alarm to notify the user.

According to the curling display device and the curling method thereof provided by the embodiment of the invention, the thickness of the flexible display screen along the light-emitting direction is obtained, and the difference between the running speeds of the curled end and the free end of the flexible display screen is adjusted according to the obtained thickness value of the flexible display screen along the light-emitting direction, so that the thickness of the flexible display screen along the light-emitting direction is kept in a preset range in the curling or unfolding process or in the curling state, the layering between the film layer structures of the flexible display screen is avoided, and the service life of the flexible display screen is prolonged.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and the like that are within the spirit and principle of the present invention are included in the present invention.

Claims

1. A scrolling display device, comprising:

the flexible display screen plays a role in displaying;

a first driver connected to the curled end of the flexible display screen; and

the distance sensor is used for monitoring the thickness of the flexible display screen along the light-emitting direction;

wherein the first driver drives the flexible display screen to effect the curling or unrolling of the flexible display screen; and during the rolling or unfolding process, the difference of the running speeds of the rolled end and the free end of the flexible display screen is adjusted according to the thickness of the flexible display screen in the light-emitting direction, which is monitored by the distance sensor.

2. A rolled display device as claimed in claim 1, further comprising a second driver linking the free end of the flexible display screen.

3. A roll display device according to claim 2, wherein the first driver slows down the driving speed and/or the second driver speeds up the driving speed when the thickness of the flexible display screen in the light emitting direction monitored by the distance sensor exceeds a preset rated value.

4. The roll display device of claim 1, wherein the first driver comprises a rotary motor that drives the flexible display screen to roll about an output shaft of the rotary motor.

5. A roll display device according to claim 2, wherein the second driver comprises a linear motor which drives the flexible display screen in a linear motion.

6. A rolled display device as claimed in claim 1, wherein the distance sensor is provided on a non-emitting side of the flexible display screen.

7. A rolled display device according to claim 6, characterised in that the rolled display device comprises a plurality of distance sensors, which are evenly arranged on the non-light emitting side of the flexible display screen.

8. A roll display device according to claim 1 further comprising an alarm which alerts when the thickness of the flexible display screen in the direction of light emission exceeds a safe value.

9. A method of curling a curled display device, the curled display device comprising a flexible display screen, the method comprising:

obtaining the thickness of the flexible display screen along the light-emitting direction;

when the thickness of the flexible display screen in the light emitting direction is larger than a first preset thickness, the running speed of the curled end of the flexible display screen is reduced and/or the running speed of the free end of the flexible display screen is increased.

10. The crimping method according to claim 9, further comprising:

when the thickness of the flexible display screen along the light-emitting direction is larger than a second preset thickness, stopping the operation of the flexible display screen;

wherein the second preset thickness is greater than the first preset thickness.